Geospatial Technology Concentration
Geographic information science (GIS), remote sensing, and global navigation satellite systems are used in wide-ranging applications such as environmental management, engineering, planning, transport/logistics, public utilities, business, public health and social sciences.
Concentration Area
Applicable Concentration Courses That May Be Taken as Directed or Free Electives
Note: All ENGR, MATH, & SCTS courses require Dean approval to take as directed elective.
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The study of forces and moments on structures, frames, and machine parts including the equilibrium of force systems in two and three dimensions, centroids, moments of inertia, friction, and shear and moment diagrams are studied.
Prerequisite/Corequisite:
Prerequisites: PHYSÂ 2211, PHYSÂ 2211L, and MATHÂ 2460 with grades of C or higher, or permission of instructor
Hours:
3
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The study of the kinematics and kinetics of particles and rigid bodies that includes the dynamics of particles, work and kinetic energy, impulse and momentum, rigid body motions, moving coordinate systems and relative motion, and basic mechanical vibrations.
Prerequisite/Corequisite:
Prerequisite: ENGR 2001 with a grade of C or higher
Hours:
3
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The definitions, concepts and laws of thermodynamics will be covered from an Engineering emphasis. Applications to ideal and real gases, vapor and gas power systems and heat pump systems. Equations of state, phase equilibrium, and phase transitions. The course will introduce students to real world energy systems and develop analysis techniques for these systems. A systematic problem solving process will be emphasized.
Prerequisite/Corequisite:
Prerequisites: MATH 2470, MATH 3000, PHYS 2211, and PHYS 2211L with grades of C or higher
Hours:
3
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As a first course of fluid behavior, it analyzes the forces and energies generated by fluids at rest and in motion. Topics include fluid statics, control-volume analysis, the Navier-Stokes equations, similitude, viscous, inviscid and turbulent flows, boundary layers and open channel flows etc.
Prerequisite/Corequisite:
Prerequisites: MATH 2470, MATH 3000, and ENGR 2001 with grades of C or higher
Hours:
4
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This course addresses advanced geospatial data management and analysis techniques. Topics include web services, relational databases and nonrelational data structures. The theory, acquisition, evaluation and manipulation of existing data sources are also presented. GISC 3200K is recommended as a prerequisite.
Prerequisite/Corequisite:
Prerequisite: GISC 4011K
Hours:
3
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This course focuses on developing software for Geospatial Science and Technology. Exercises are based on real-world scenarios with an emphasis on building working applications and related documentation. Topics covered include Graphical User Interfaces, testing and objected oriented software design. Students are expected to be proficient in a programming language and have significant domain knowledge in Geospatial Science and Technology.
Prerequisite/Corequisite:
Prerequisite: GISCÂ 3200K
Hours:
3
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This course introduces students to web based geospatial applications including mobile and interactive services. Web application design and implementation strategies, the fundamentals of HTML and CSS, community engagement strategies and development of applications using commercial and open source geospatial web platforms are presented. GISC 3200K is recommended as a prerequisite.
Prerequisite/Corequisite:
Prerequisites: GISC 2011/LÂ or GISC 3021K
Hours:
3
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The course introduces the concepts, methods, data structures and algorithms of digital image processing. Emphasis is placed on the processing of geospatial data gathered by ground based, airborne and satellite sensors.
Prerequisite/Corequisite:
Prerequisites: GISC 3021K, GISC 3337K, and GISC 3200K
Hours:
3
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An introduction to differential calculus. Topics include limits, differentiation of algebraic and trigonometric functions, applications of derivatives, antidifferentiation, simple differential equations, the area under a curve, the fundamental theorem of calculus, and differentiation and integration of exponential and logarithmic functions.
Prerequisite/Corequisite:
Prerequisite: Accuplacer Next-Generation Advanced Algebra score of 277 or higher, Old SAT Math score of 640 or higher, New SAT Math score of 660 or higher, ACT Math score of 26 or higher, or MATH 1113 with a grade of C or higher
Hours:
4
Notes:
Course equivalent to MATH 1501
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A continuation of Calculus I. Topics include application of definite integrals, derivatives and integrals with inverse trigonometric functions, indeterminant forms and I'Hospital's rule, techniques of integration, polar coordinates, and infinite sequences and series.
Prerequisite/Corequisite:
Prerequisite: MATH 1450 or MATH 1501 with a grade of C or higher, or approval of the department head
Hours:
4
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An introduction to the basic concepts of linear algebra. Topics include finite-dimensional vector spaces, bases, linear transformations and matrices.
Prerequisite/Corequisite:
Prerequisite: MATH 2460 with a grade of C or higher
Hours:
3
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This course will provide an overview of the history and major policy, scientific and technical issues related to space.
Prerequisite/Corequisite:
Prerequisite: MATH 1111
Hours:
3